Evolution of coordinated mutagenesis and somatic hypermutation in VH5

Authors

Barbara E. Wright, University of Montana, Missoula
Karen H. Schmidt, University of Montana, Missoula
Aaron T. Hunt, University of Montana, Missoula
Dennis K. Reschke, University of Montana, Missoula
Michael F. Minnick, University of Montana, Missoula

Document Type

Article

Publication Title

Molecular Immunology

Publication Date

12-2011

Volume

49

Issue

3

Disciplines

Biology | Life Sciences

Abstract

The VH5 human antibody gene was analyzed using a computer program (mfg) which simulates transcription, to better understand transcription-driven mutagenesis events that occur during "phase 1" of somatic hypermutation. Results show that the great majority of mutations in the non-transcribed strand occur within loops of two predicted high-stability stem-loop structures, termed SLSs 14.9 and 13.9. In fact, 89% of the 2505 mutations reported are within the encoded complementarity-determining region (CDR) and occur in loops of these high-stability structures. In vitro studies were also done and verified the existence of SLS 14.9. Following the formation of SLSs 14.9 and 13.9, a sustained period of transcriptional activity occurs within a window size of 60-70 nucleotides. During this period, the stability of these two SLSs does not change, and may provide the substrate for base exchanges and mutagenesis. The data suggest that many mutable bases are exposed simultaneously at pause sites, allowing for coordinated mutagenesis.

DOI

10.1016/j.molimm.2011.10.001

Rights

© 2011 Elsevier Ltd. All rights reserved.

Recommended Citation

Wright, Barbara E.; Schmidt, Karen H.; Hunt, Aaron T.; Reschke, Dennis K.; and Minnick, Michael F., "Evolution of coordinated mutagenesis and somatic hypermutation in VH5" (2011). Biological Sciences Faculty Publications. 456.
https://scholarworks.umt.edu/biosci_pubs/456